Repeater-Aided Over-the-Air Phase Synchronization in Distributed MIMO

TL;DR

This paper introduces a repeater-assisted over-the-air phase synchronization method for distributed MIMO systems, enabling coherent joint transmission in environments where direct AP communication is weak or infeasible.

Contribution

It proposes a novel calibration scheme using repeater nodes to achieve phase synchronization without direct AP signaling, expanding D-MIMO applicability.

Findings

Enables phase synchronization via repeater nodes in challenging environments.

Provides a closed-form algorithm for phase calibration.

Facilitates coherent joint transmission in previously infeasible scenarios.

Abstract

Phase synchronization of access points (APs) in a distributed multiple-input multiple-output (D-MIMO) system is critical to leverage the performance benefits of D-MIMO. Existing over-the-air phase synchronization methods assume that APs can communicate directly to perform necessary measurements. However, this assumption might not hold in scenarios where inter-AP signaling is too weak for effective communication. To address this, in this paper, we propose a novel over-the-air calibration scheme that uses repeater nodes to facilitate phase synchronization when direct AP signaling is infeasible. We give the steps of the algorithm for phase calibration in closed form, and show how it enables coherent joint transmission (CJT) by the APs. The framework expands the applicability of D-MIMO systems to challenging environments, where existing over-the-air synchronization techniques fall short.